This volume explores the integration of recent research on everyday, classroom, and professional scientific thinking. It brings together an international group of researchers to present core findings from each context; discuss connections between contexts, and explore structures; technologies, and environments to facilitate the development and practice of scientific thinking. The chapters focus on: * situations from young children visiting museums, * middle-school students collaborating in classrooms, * undergraduates learning about research methods, and * professional scientists engaged in
In domains with multiple competing goals, people face a basic challenge: How to make their strategy use flexible enough to deal with shifting circumstances without losing track of their overall objectives. This article examines how young children meet this challenge in one such domain, tic-tac-toe. Experiment 1 provides an overviews of development in the area; it indicates that children's tic-tac-toe strategies are rule based and that new rules are added one at a time. Experiment 2 demonstrates that even young children flexibly tailor their strategy use to meet shifting circumstances
Constraints on learning, rather than being unique to evolutionarily privileged domains, may operate in nonprivileged domains as well. Understanding of the goals that strategies must meet seems to play an especially important role in these domains in constraining the strategies even before they use them. THe presente experiments showed that children can use their conceptual understanding to accurately evaluate strategies that they not only do not yet use but hat are more conceptually advanced than the strategies they do not use. In Experiment 1, 5-year-olds who did not yet use the min strategy
Children often learn new problem-solving strategies by observing examples of other people's problem-solving. When children learn a new strategy through observation and also explain the new strategy to themselves, they generalize the strategy more widely than children who learn a new strategy but do not explain. We tested three hypothesized mechanisms through which explanations might facilitate strategy generalization: more accurate recall of the new strategy's procedures; increased selection of the new strategy over competing strategies; or more effective management of the new strategy's goal
Current accounts of the development of scientific reasoning focus on individual children's ability to coordinate the collection and evaluation of evidence with the creation of theories to explain the evidence. This observational study of parent–child interactions in a children's museum demonstrated that parents shape and support children's scientific thinking in everyday, nonobligatory activity. When children engaged an exhibit with parents, their exploration of evidence was observed to be longer, broader, and more focused on relevant comparisons than children who engaged the exhibit without
Two studies examined how parent explanation changes what children learn from everyday shared scientific thinking. In Study 1, children between ages 3- and 8-years-old explored a novel task solo or with parents. Analyses of children's performance on a subsequent posttest compared three groups: children exploring with parents who spontaneously explained to them; children exploring with parents who did not explain; and children exploring solo. Children whose parents had explained were most likely to have a conceptual as opposed to procedural understanding of the task. Study 2 examined the causal
In this article, we use two studies conducted in art museum settings as a means to discuss some of the opportunities and challenges for the field of informal art education. The first study explores artmaking processes that take place in a children’s museum, highlighting the need to consider the social nature of learning in informal environments. Second, a study with families in an art museum explores art appreciation and interpretation. Taken together—the creating and the responding—these two studies are used to point out how we might trace disciplinary processes in art beyond schools into the
The aim of the work reported here has been to give an overview of the support that the informal sector provides for learning and engagement with science. In addressing this goal, we have taken the view that engagement with science and the learning of science occur both within and without schools. What is of interest is not who provides the experience or where it is provided but the nature and diversity of opportunities for science learning and engagement that are offered in contemporary UK society. Thus in approaching the work we have taken a systems perspective and looked at informal
Museums invest considerable resources in promoting and supporting elementary-school field trips, but remain skeptical about their educational value. Recent cognitive psychology and neuroscience research require a reappraisal of how and what to assess relative to school-field-trip learning. One hundred and twenty-eight subjects were interviewed about their recollections of school field trips taken during the early years of their school education: 34 fourth-grade students, 48 eighth-grade students, and 46 adults composed the group. Overall, 96% of all subjects could recall a school field trip
Each school year, millions of children participate in organized field trips to museums, zoos, aquaria, and nature centers. Naturally, school groups represent a significant percentage, if not an outright majority, of visitors to such informal educational institutions. Educators at these institutions must often direct the greatest proportion of their time and effort towards educational programming for the streams of visiting school groups. Understandably, many informal educators have a strong interest in evaluating the impact of their efforts directed towards young visitors. Museum education
In this article, the authors review a collaborative project between two developmental psychologists and the staff of Children's Discovery Museum of San Jose. Under the broad agenda of studying the development of scientific literacy, they have been exploring the hypothesis that the guidance of parents is an important bridge between the intentions of the exhibit designer and the experience and knowledge of the child. Their research is guided by a framework inspired by a combination of socio-cultural and information-processing theories of how children learn. In the first section of this article
Research on human–robot interaction has often ignored the human cognitive changes that might occur when humans and robots work together to solve problems. Facilitating human–robot collaboration will require understanding how the collaboration functions system-wide. The authors present detailed examples drawn from a study of children and an autonomous rover, and examine how children’s beliefs can guide the way they interact with and learn about the robot. The data suggest that better collaboration might require that robots be designed to maximize their relationship potential with specific users